James R. Maynard scite author profile

The western Greater Caucasus formed by the tectonic inversion of the western strand of the Greater Caucasus Basin, a Mesozoic rift that opened at the southern margin of Laurasia. Subsidence analysis indicates that the main phase of rifting occurred during the Aalenian to Bajocian synchronous with that in the eastern Alborz and, possibly, the South Caspian Basin. Secondary episodes of subsidence during the late Tithonian to Berriasian and Hauterivian to early Aptian are tentatively linked to initial rifting within the western, and possibly eastern, Black Sea and during the late Campanian to Danian to the opening of the eastern Black Sea. Initial uplift, subaerial exposure, and sediment derivation from the western Greater Caucasus occurred at the Eocene‐Oligocene transition. Oligocene and younger sediments on the southern margin of the former basin were derived from the inverting basin and uplifted parts of its northern margin, indicating that the western Greater Caucasus Basin had closed by this time. A predominance of pollen representing a montane forest environment (dominated by Pinacean pollen) within these sediments suggests that the uplifting Caucasian hinterland had a paleoaltitude of around 2 km from early Oligocene time. The closure of the western Greater Caucasus Basin and significant uplift of the range at approximately 34 Ma is earlier than stated in many studies and needs to be incorporated into geodynamic models for the Arabia‐Eurasia region.

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On the periodicity and magnitude of Late Carboniferous glacio-eustatie sea-level changes

Maynard

Leeder

1992

JGS

119

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Data from sedimentary cycles in basins from northern England, the Appalachians and Midcontinent US afford an insight into periodicities and controls of Late Carboniferous glacio-eustatic sealevel changes. Lithofacies with identifiable palaeobathymetry are used to assess the magnitude of sea-level change in the Pennine Basin of northern England; the method yields a minimum value of 42m. Walsh power spectral analysis is employed to resolve periodicities of about 120 ka within the Pennine Basin of northern England, 212, 140 and 93 ka within the Midcontinent US succession and 109,84,67,63 ka within the Appalachian Basin. Within the Pennine Basin periodicities and magnitudes are found to be independent of their position within the basin thus any tectonism can be assumed to have had a negligible effect on the transgressions. A simplified modelled climatic curve is derived from Milankovitch parameters and Pleistocene 6"O data. This is used in a basin fill model that simulates the thermally subsiding Pennine Basin. The resulting distribution of marine deposits is seen to depend upon both the steady regional subsidence and the magnitude and extent of glacio-eustatic transgressions.

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Sequence stratigraphy of the Upper Yeadonian of northern England

Maynard

1992

Marine and Petroleum Geology

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Transgressions and regressions: a model for the influence of tectonic subsidence, deposition and eustasy, with application to Quaternary and Carboniferous examples

1990

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The position of a coastline in time and space is determined by (1) the vertical displacement and/or tilting of the depositional surface, (2) the rate of sediment accumulation or erosion across that surface, and (3) variation of sea-level. All three rates of change may vary through time. We present computer simulations of coastline movements that illustrate the interaction of the above variables, with (1) and (2) held at various defined levels whilst (3) is varied according to the late Quaternary glacio-eustatic sea-level curve. The Corinth Canal section in central Greece exposes uplifted late Quaternary coastal transgressive cycles, each of which may be related to a radiometrically dated, c. 100 ka duration, cycle of sea-level change. Observed stratigraphic sequence geometries are predicted by forward modelling based on the known glacio-eustatic history over the last 430 ka. Milankovitch orbital parameters are calculated for the Carboniferous period. The obliquity and precession parameters are found to have been significantly shorter than at present. A simulation is presented of the effects of sea-level changes across low gradient, fluvio-deltaic environments such as existed in northern England and other parts of the Laurentian continental margin during Upper Carboniferous time.

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The Carboniferous of Western Europe; the development of a petroleum system

Maynard¹,

Hofmann²,

Dunay³

et al. 1997

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A consistent stratigraphic study of the western European Carboniferous Basin has allowed the generation of eight palaeogeographic timeslices. These illustrate a model of large scale eastern (dextral) tectonic escape on the northern side of a convergent margin and integrate the diverse tectonic and sedimentary settings observed within the basin as a whole. This model can be compared to the present day eastern Mediterranean, where a similar range of diverse tectonic settings are observed. Reservoir and source distribution is discussed for each time-slice along with the present distribution of Carboniferous oil and gas fields. Due to the diversity observed no unique play type can be distilled from the data to explain the distribution of hydrocarbons within the studied area.

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James R. Maynard

The formation and inversion of the western Greater Caucasus Basin and the uplift of the western Greater Caucasus: Implications for the wider Black Sea region

On the periodicity and magnitude of Late Carboniferous glacio-eustatie sea-level changes

Sequence stratigraphy of the Upper Yeadonian of northern England

Transgressions and regressions: a model for the influence of tectonic subsidence, deposition and eustasy, with application to Quaternary and Carboniferous examples

The Carboniferous of Western Europe; the development of a petroleum system

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